Apparatuses, Methods, and Systems for Troubleshooting Multimedia Network Communication Systems

1. An apparatus comprising: a first communication interface; a second communication interface configured to transmit and/or receive multimedia data signals to and/or from a device through a wired connection; a memory circuit configured to store instructions for conducting one or more wired connection integrity tests, the wired connection integrity tests determining at least whether the apparatus is able to communicate with the device, and the one or more wired connection integrity tests includes a video test pattern test that determines whether the device is accurately receiving video data signals from the apparatus through the wired connection; and a processing circuit communicatively coupled to the first and second communication interfaces and the memory circuit, the processing circuit configured to: initiate the one or more wired connection integrity tests by executing the instructions stored in the memory circuit; determine whether each of the one or more wired connection integrity tests initiated passed or failed; report whether the one or more wired connection integrity tests passed or failed; transmit a video test pattern (VTP) request message to the device indicating a specific video test pattern is requested; receive a device-generated video test pattern from the device through the wired connection; obtain an apparatus-generated video test pattern that is generated at the apparatus based on the specific video test pattern requested; compare the device-generated video test pattern received to the apparatus-generated video test pattern; determine a match value indicative of how closely the device-generated video test pattern received matches the apparatus-generated video test pattern; and report a video test pattern failed message when the match value is less than a predefined threshold value.

2. The apparatus of claim 1 , wherein the one or more wired connection integrity tests include a signal line communication (SLC) test that determines whether the apparatus and the device are able to establish bi-directional communications with each other, and the processing circuit is further configured to: initiate the SLC test; transmit a SLC test request message to the device; determine that the SLC test passed if a SLC test acknowledgement message is received in response to the SLC test message from the device within a predefined period of time, otherwise determine that the SLC test failed; and report whether the SLC test passed or failed.

3. The apparatus of claim 1 , wherein the one or more wired connection integrity tests include a cable integrity and quality (CIQ) test that determines whether there exists at least one of (a) an increase in power loss associated with the wired connection, and/or (b) a power loss value associated with the wired connection exceeds a predefined threshold value.

4. The apparatus of claim 1 , wherein the one or more wired connection integrity tests include a cable integrity and quality (CIQ) test, and the processing circuit is further configured to: generate a first test sequence; transmit the first test sequence to the device through the wired connection; receive a second test sequence; determine a transmit power of the first test sequence and receive power of the second test sequence; receive a transmit power of the second test sequence and a receive power of the first test sequence from the device; determine one or more power loss values associated with the wired connection based on the transmit power of the first test sequence, the receive power of the first test sequence, the transmit power of the second test sequence, and the receive power of the second test sequence; and determine whether the one or more power loss values exceeds a predefined threshold value and if so then report a CIQ test failed message.

5. The apparatus of claim 4 , wherein the CIQ test failed message is reported to at least one of (a) a server and video router (SVR) communicatively coupled to the apparatus and/or the device, and/or (b) a remote server communicatively coupled to the SVR through a communication network.

6. The apparatus of claim 4 , the processing circuit is further configured to: compare the one or more power loss values to stored power loss values generated during prior CIQ tests; and determine whether the one or more power loss values is indicative of a greater power loss through the wired connection than the stored power loss values generated during prior CIQ tests.

7. The apparatus of claim 1 , wherein the video test pattern test includes a video test pattern, and the first communication interface is configured to transmit the video test pattern to a display device where the video test pattern can be visually inspected on the display device to determine whether the display device is accurately received video signals from the apparatus.

8. The apparatus of claim 1 , wherein the first communication interface is configured to receive a first multimedia data signal from at least one of a multimedia data source and/or a multimedia data converter, and the second communication interface is configured to transmit a second multimedia data signal to the device, the second multimedia data signal based on the first multimedia data signal.

9. The apparatus of claim 1 , wherein the second communication interface is configured to receive a first multimedia data signal from the device, and the first communication interface is configured to transmit a second multimedia data signal to a multimedia destination device, the second multimedia data signal based on the first multimedia data signal.

10. The apparatus of claim 1 , further comprising: an input device configured to receive a selection from a user; one or more light emitting diode (LED) status indicators; and wherein the processing circuit is further configured to: initiate the one or more wired connection integrity tests after receiving the selection from the input device; and report whether the one or more wired connection integrity tests passed or failed by illuminating the one or more LED status indicators.

11. The apparatus of claim 1 , wherein the processing circuit is further configured to: receive a command from a server and video router (SVR) and/or a remote server that initiates the one or more wired connection integrity tests; and report whether the one or more wired connection integrity tests passed or failed to the SVR and/or the remote server.

12. The apparatus of claim 1 , wherein the one or more wired connection integrity tests are initiated according to a predefined schedule.

13. The apparatus of claim 1 , wherein the processing circuit is further configured to: receive a command from a server and video router (SVR) and/or a remote server that initiates the video test pattern test; and report the video test pattern failed message or a video test pattern success message to the SVR and/or the remote server.

14. A system comprising: a Transmit (Tx) port; a Receive (Rx) port; a wired connection communicatively coupling the Tx port to the Rx port and allowing bi-directional communication between the Tx port and the Rx port; wherein the Tx port and/or the Rx port are configured to initiate one or more wired connection integrity tests, the wired connection integrity tests determining at least whether the Tx port and the Rx port can communicate with one another, the one or more wired connection integrity tests including a video test pattern test that determines whether the Rx port is accurately receiving video data signals from the Tx port through the wired connection, determine whether each of the one or more wired connection integrity tests initiated passed or failed, report whether the one or more wired connection integrity tests passed or failed; and wherein the Rx port is configured to transmit a video test pattern (VTP) request message to the Tx port indicating a specific video test pattern is requested, receive a Tx port-generated video test pattern from the Tx port through the wired connection, obtain an Rx port-generated video test pattern that is generated at the Rx port based on the specific video test pattern requested, compare the Tx port-generated video test pattern received to the Rx port-generated video test pattern, determine a match value indicative of how closely the Tx port-generated video test pattern received matches the Rx port-generated video test pattern, and report a video test pattern failed message when the match value is less than a predefined threshold value.

15. The system of claim 14 , wherein the one or more wired connection integrity tests include a signal line communication (SLC) test that determines whether the Tx port and the Rx port are able to establish bi-directional communications with each other, and at least one of the Tx port and/or the Rx port is configured to: initiate the SLC test; transmit a SLC test request message; determine that the SLC test passed if a SLC test acknowledgement message is received in response to the SLC test message within a predefined period of time, otherwise determine that the SLC test failed; and report whether the SLC test passed or failed.

16. The system of claim 14 , wherein the one or more wired connection integrity tests include a cable integrity and quality (CIQ) test that determines whether there exists at least one of (a) an increase in power loss associated with the wired connection, and/or (b) a power loss value associated with the wired connection exceeds a predefined threshold value.

17. The system of claim 14 , wherein the Tx port is configured to receive a first multimedia data signal from at least one of a multimedia data source and/or a multimedia data converter, and the Rx port is configured to transmit a second multimedia data signal to a video router that is communicatively coupled to the Rx port, the second multimedia data signal based on the first multimedia data signal.

18. The system of claim 14 , wherein the Tx port is configured to receive a first multimedia data signal from a video router that is communicatively coupled to the Tx port, and the Rx port is configured to transmit a second multimedia data signal to a multimedia destination device, the second multimedia data signal based on the first multimedia data signal.

19. The system of claim 14 , wherein the Rx port is further configured to: receive a command from a server and video router (SVR) and/or a remote server that initiates the video test pattern test; and report the video test pattern failed message or a video test pattern success message to the SVR and/or the remote server.

20. A method operational at a first port, the method comprising: initiating a video test pattern test at the first port by executing instructions stored at a memory circuit of the first port, the video test pattern test determining whether the first port is accurately receiving video data signals from a second port over a wired connection; transmit a video test pattern (VTP) request message from the first port to the second port indicating a specific video test pattern is requested; receive a second port-generated video test pattern from the second port through the wired connection; obtain a first port-generated video test pattern that is generated at the first port based on the specific video test pattern requested; compare the second port-generated video test pattern received to the first port-generated video test pattern; determine a match value indicative of how closely the second port-generated video test pattern received matches the first port-generated video test pattern; and report a video test pattern failed message to a video signal router when the match value is less than a predefined threshold value.